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InchiGen.py
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InchiGen.py
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# -*- coding: utf-8 -*-
"""
Created on Wed Dec 17 15:20:18 2014
@author: ke291
Code for diastereomer, tautomer and protomer generation via InChI strings.
This file gets called by PyDP4.py if diastereomer and/or tautomer and/or
protomer generation is used.
"""
from PyDP4 import settings
import sys
import os
try:
from openbabel.openbabel import OBConversion, OBMol, OBAtomAtomIter, OBMolAtomIter
except ImportError:
from openbabel import *
import shutil
import subprocess
from rdkit import Chem
from rdkit.Chem import AllChem
def main(f):
inchi, aux = GetInchi(f)
ds_inchis = GenDiastereomers(inchi)
ds_inchis = [FixTautProtons(f, i, aux) for i in ds_inchis]
for ds in range(0, len(ds_inchis)):
print("Isomer " + str(ds) + " inchi = " + ds_inchis[ds])
Inchi2Struct(ds_inchis[ds], f[:-4] + str(ds+1), aux)
RestoreNumsSDF(f[:-4] + str(ds+1) + '.sdf', f, aux)
def GetInchiRenumMap(AuxInfo):
for l in AuxInfo.split('/'):
if 'N:' in l:
RenumLayer = l
break
amap = [int(x) for x in RenumLayer[2:].split(',')]
return amap
def FixTautProtons(f, inchi, AuxInfo):
#Get tautomeric protons and atoms they are connected to from Inchi
TautProts = GetTautProtons(inchi)
amap = GetInchiRenumMap(AuxInfo)
#get the correspondence of the Inchi numbers to the source numbers
hmap = []
for taut in TautProts:
for heavyatom in range(1, len(taut)):
hmap.append([int(taut[heavyatom]), amap[int(taut[heavyatom])-1]])
#Read molecule from file
obconversion = OBConversion()
obconversion.SetInFormat("sdf")
obmol = OBMol()
obconversion.ReadFile(obmol, f)
Fixprotpos = []
for heavyatom in hmap:
atom = obmol.GetAtom(heavyatom[1])
for nbratom in OBAtomAtomIter(atom):
if nbratom.GetAtomicNum() == 1:
Fixprotpos.append(heavyatom[0])
draftFH = []
for i in range(0, len(Fixprotpos)):
if Fixprotpos[i] not in [a[0] for a in draftFH]:
draftFH.append([Fixprotpos[i], Fixprotpos.count(Fixprotpos[i])])
fixedlayer = '/f/h'
for h in draftFH:
if h[1] == 1:
fixedlayer = fixedlayer + str(h[0])+'H,'
else:
fixedlayer = fixedlayer + str(h[0])+'H' + str(h[1]) + ','
resinchi = inchi + fixedlayer[:-1]
return resinchi
#Get H connections from sdf file
def GetHcons(f):
obconversion = OBConversion()
obconversion.SetInFormat("sdf")
obmol = OBMol()
obconversion.ReadFile(obmol, f)
Hcons = []
for atom in OBMolAtomIter(obmol):
idx = atom.GetIdx()
anum = atom.GetAtomicNum()
if anum == 1:
for NbrAtom in OBAtomAtomIter(atom):
Hcons.append([idx, NbrAtom.GetIdx()])
return Hcons
def RestoreNumsSDF(f, fold, AuxInfo):
#Read molecule from file
obconversion = OBConversion()
obconversion.SetInFormat("sdf")
obmol = OBMol()
obconversion.ReadFile(obmol, f)
#Get the atoms Hs are connected to
oldHcons = GetHcons(fold)
#translate the H connected atoms to the new numbering system
amap = GetInchiRenumMap(AuxInfo)
for i in range(0, len(oldHcons)):
oldHcons[i][1] = amap.index(oldHcons[i][1])+1
newHcons = []
temp = []
i = 0
for atom in OBMolAtomIter(obmol):
idx = atom.GetIdx()
anum = atom.GetAtomicNum()
#If atom is hydrogen, check what it is connected to
if anum == 1:
for NbrAtom in OBAtomAtomIter(atom):
newHcons.append([idx, NbrAtom.GetIdx()])
#Pick the temporary atom
temp.append(atom)
for i in range(0, len(newHcons)):
conatom = newHcons[i][1]
for b in range(0, len(oldHcons)):
if conatom == oldHcons[b][1]:
amap.append(oldHcons[b][0])
#remove the number, so that it doesn't get added twice
oldHcons[b][1] = 0
newmol = OBMol()
added = []
for i in range(1, len(amap)+1):
newn = amap.index(i)
newmol.AddAtom(temp[newn])
added.append(newn)
#Final runthrough to check that all atoms have been added,
#tautomeric protons can be missed. If tautomeric proton tracking
#is implemented this can be removed
for i in range(0, len(temp)):
if not i in added:
newmol.AddAtom(temp[i])
#Restore the bonds
newmol.ConnectTheDots()
newmol.PerceiveBondOrders()
#Write renumbered molecule to file
obconversion.SetOutFormat("sdf")
obconversion.WriteFile(newmol, f)
def GetInchi(f):
print("Getting inchi from file ",f)
if os.path.sep not in f:
f = os.path.join(os.getcwd(), f)
m = Chem.MolFromMolFile(f, removeHs = False)
m = Chem.AddHs(m)
idata = Chem.MolToInchiAndAuxInfo(m)
return idata[0], idata[1]
def Inchi2Struct(inchi, f, aux):
cwd = os.getcwd()
fullf = os.path.join(cwd, f)
infile = open(f + '.inchi', 'w')
infile.write(inchi)
infile.close()
inchi = open(f + '.inchi', "r").read()
m = AllChem.inchi.MolFromInchi(inchi, sanitize=True, removeHs=False)
m = AllChem.AddHs(m, addCoords=True)
AllChem.EmbedMolecule(m)
save3d = Chem.SDWriter(fullf + '.sdf')
save3d.write(m)
def GetTautProtons(inchi):
#get the tautomer layer and pickup the data
layers = inchi.split('/')
for l in layers:
if 'h' in l:
ProtLayer = l
ProtList = list(ProtLayer)
starts = []
ends = []
for i in range(0, len(ProtList)):
if ProtList[i] == '(':
starts.append(i)
if ProtList[i] == ')':
ends.append(i)
TautProts = []
for i in range(0, len(starts)):
TautProts.append((ProtLayer[starts[i]+1:ends[i]]).split(','))
return TautProts
def GenSelectDiastereomers(structf, atoms):
f = structf
if (f[-4:] != '.sdf'):
f += '.sdf'
inchi, aux = GetInchi(f)
amap = GetInchiRenumMap(aux)
translated_atoms = []
for atom in atoms:
translated_atoms.append(amap.index(atom)+1)
ds_inchis = GenSelectDSInchis(inchi, translated_atoms)
ds_inchis = [FixTautProtons(f, i, aux) for i in ds_inchis]
filenames = []
for ds in range(0, len(ds_inchis)):
Inchi2Struct(ds_inchis[ds], f[:-4] + str(ds + 1), aux)
RestoreNumsSDF(f[:-4] + str(ds + 1) + '.sdf', f, aux)
filenames.append(f[:-4] + str(ds + 1))
return filenames
def GenSelectDSInchis(inchi, atoms):
#Inchis of all diastereomers, including the parent structure
resinchis = []
#get the number of potential diastereomers
layers = inchi.decode().split('/')
for l in layers:
if 't' in l:
slayer = l
sc = l[1:].decode().split(',')
ignore = []
for i in range(0, len(sc)):
if not int(sc[i][:-1]) in atoms:
ignore.append(sc[i])
sc = [x for x in sc if x not in ignore]
if len(sc) == 0:
"No stereocentres remaining, no diastereomers will be generated."
return 0
numds = 2**(len(sc))
print("Number of diastereomers to be generated: " + str(numds))
temps = []
#Generate inversion patterns - essentially just binary strings
for i in range(0, numds):
template = bin(i)[2:].zfill(len(sc))
temps.append(template)
#For each 1 in template, invert the corresponding stereocentre
#and add the resulting diastereomer to the list
invert = {'+': '-', '-': '+'}
reslayers = []
for ds in range(0, numds):
newds = list(sc)
for stereocentre in range(0, len(sc)):
if temps[ds][stereocentre] == '1':
tlist = list(newds[stereocentre])
tlist[-1] = invert[tlist[-1]]
newds[stereocentre] = "".join(tlist)
newlayer = str(slayer)
for stereocentre in range(0, len(sc)):
newlayer = newlayer.replace(sc[stereocentre], newds[stereocentre])
reslayers.append(newlayer)
print(reslayers)
resinchis = []
for layer in reslayers:
resinchis.append(inchi.replace(slayer, layer))
return resinchis
def GenDiastereomers(structf, nS, atoms=[]):
if len(atoms) > 0:
return GenSelectDiastereomers(structf, atoms)
f = structf
if (f[-4:] != '.sdf'):
f += '.sdf'
if nS < 2:
cwd = os.getcwd()
fullf = os.path.join(cwd, f)
shutil.copy(fullf, fullf[:-4] + "0.sdf")
return [f[:-4] + "0"]
inchi, aux = GetInchi(f)
i,a = GetInchi(f)
ds_inchis = GenDSInchis(inchi)
ds_inchis = [FixTautProtons(f, i, aux) for i in ds_inchis]
filenames = []
for ds in range(0, len(ds_inchis)):
print("Isomer " + str(ds) + " inchi = " + ds_inchis[ds])
Inchi2Struct(ds_inchis[ds], f[:-4] + str(ds + 1), aux)
RestoreNumsSDF(f[:-4] + str(ds + 1) + '.sdf', f, aux)
filenames.append(f[:-4] + str(ds + 1))
return filenames
def GenDSInchis(inchi):
ilist = list(inchi)
#Inchis of all diastereomers, including the parent structure
resinchis = []
#get the number of potential diastereomers
numds = 0
layers = inchi.split('/')
for l in layers:
if 't' in l:
numds = 2**(len(l.translate({ord(i): None for i in 't,1234567890'}))-1)
if numds == 0:
raise ValueError("No chiral carbon detected in the input molecule!")
else:
print("Number of diastereomers to be generated: " + str(numds))
#find configuration sites (+ and -)
bs = ilist.index('t')
es = ilist[bs:].index('/')
spos = []
for s in range(bs, bs+es):
if ilist[s] == '+' or ilist[s] == '-':
spos.append(s)
temps = []
#Generate inversion patterns - essentially just binary strings
for i in range(0, numds):
template = bin(i)[2:].zfill(len(spos)-1)
temps.append(template)
#For each 1 in template, invert the corresponding stereocentre
#and add the resulting diastereomer to the list
invert = {'+': '-', '-': '+'}
for ds in range(0, numds):
t = list(ilist)
for stereocentre in range(1, len(spos)):
if temps[ds][stereocentre-1] == '1':
t[spos[stereocentre]] = invert[t[spos[stereocentre]]]
resinchis.append(''.join(t))
return resinchis